Protective sheet loader

ABSTRACT

A protective sheet loader may comprise a first roller, a second roller, a sheet of material spanning between the first and second rollers, and a loading mechanism. A portion of the sheet of material may be loaded into the crimping chamber of an apparatus for reducing the size of a medical device. A medical device may be placed within the crimping chamber such that the sheet of material forms a barrier between the walls of the crimping chamber and the medical device and prevents cross-contamination between the medical device and the crimping device. After a crimping step is completed, the medical device and the contaminated portion of the sheet of material may be removed from the crimping chamber, and a clean portion of the sheet of material may be loaded into the crimping chamber.

BACKGROUND OF THE INVENTION

Stents, stent delivery assemblies and other expandable medical devicesare utilized in a number of medical procedures and situations, and assuch their structure and function are well known. A stent is a generallycylindrical prosthesis introduced via a catheter into a lumen of a bodyvessel in a configuration having a generally reduced diameter and thenexpanded to the diameter of the vessel. In its expanded configuration,the stent supports and reinforces the vessel walls while maintaining thevessel in an open, unobstructed condition.

Stents are available in both self-expanding and inflation expandableconfigurations. Inflation expandable stents are well known and widelyavailable in a variety of designs and configurations. Bothself-expanding and inflation expandable stents may be crimped to theirreduced configuration after being disposed about a delivery catheter.They are maneuvered to the deployment site and expanded to the vesseldiameter either by fluid inflation of a balloon positioned between thestent and the delivery catheter, or upon release of the self-expandingstent from its crimped state, for example by retraction of a retainingsleeve.

Stents may be crimped or reduced in size by a suitable crimping device,for example as disclosed in U.S. patent application Ser. Nos.10/826,196; 10/788,088; 10/826,035; and US20030192164A1; and U.S. Pat.Nos. 6,629,350; and 6,360,577, the entire disclosures of which areincorporated herein in their entireties.

When a stent includes a coating, such as a polymer or a drug coating, itmay be possible for a crimping device to undesirably affect the coatingduring crimping. Further, crimping devices may require cleaning after acrimping step as coating material residuals may be left in the crimpingdevice.

There remains a need for a system and method of crimping a stent orother expandable medical device which provides added protection to thedevice being reduced in size. There remains a need for a system andmethod of crimping a stent or other expandable medical device whichprevents contamination of the contacting surfaces of the crimpingdevice.

All US patents and applications and all other published documentsmentioned anywhere in this application are incorporated herein byreference in their entirety.

Without limiting the scope of the invention a brief summary of some ofthe claimed embodiments of the invention is set forth below. Additionaldetails of the summarized embodiments of the invention and/or additionalembodiments of the invention may be found in the Detailed Description ofthe Invention below.

A brief abstract of the technical disclosure in the specification isprovided as well only for the purposes of complying with 37 C.F.R. 1.72.The abstract is not intended to be used for interpreting the scope ofthe claims.

BRIEF SUMMARY OF THE INVENTION

In some embodiments, the present invention comprises a sheet loaderwhich may be used in conjunction with a crimping device for reducing thesize of a medical device. The sheet loader may load a portion of aprotective sheet into the crimping chamber of the crimping device. Amedical device may be placed within the crimping chamber such that theprotective sheet forms a barrier between the walls of the crimpingchamber and the medical device. The size of the crimping chamber may bereduced, thereby reducing the size of the medical device. Desirably, theprotective sheet may be kept under tension during the crimping step, andany excess portion of the protective sheet may be removed from thecrimping chamber as the size is reduced. Desirably, the protective sheetmay prevent cross-contamination between the crimping device and themedical device. Once a crimping step is completed, the crimped medicaldevice and the portion of the protective sheet which has been used maybe removed from the crimping chamber, a clean portion of the protectivesheet may be loaded into the crimping chamber and another crimping stepmay be performed.

In one embodiment, an apparatus for reducing the size of a medicaldevice may comprise a plurality of moveable blades arranged to form achamber, the size of the chamber being adjustable. A sheet of protectivematerial may span between a first roller and a second roller, and aloading mechanism may be arranged to load a portion of the sheet ofprotective material into the chamber.

In another embodiment, a protective sheet loader for use with a stentcrimper may comprise a supply roller, a discard roller, a sheet ofmaterial spanning between the supply roller and the discard roller and aloading mechanism. The loading mechanism may be constructed and arrangedto load a portion of the sheet of material into the crimping chamber ofa stent crimper.

In one embodiment, a method of reducing the size of an article maycomprise providing a device for reducing the size of an article, thedevice having a chamber, the size of the chamber being adjustable. Asheet of material may be provided and a first portion of the sheet ofmaterial may be disposed within the chamber. An article may be providedand disposed within the chamber such that the first portion of the sheetof material within the chamber is oriented about the article. The sizeof the chamber may be reduced to reduce the size of the article.

These and other embodiments which characterize the invention are pointedout with particularity in the claims annexed hereto and forming a parthereof. However, for a better understanding of the invention, itsadvantages and objectives obtained by its use, reference should be madeto the drawings which form a further part hereof and the accompanyingdescriptive matter, in which there are illustrated and described variousembodiments of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

A detailed description of the invention is hereafter described withspecific reference being made to the drawings.

FIG. 1 shows an embodiment of a crimping apparatus having a protectivesheet loader.

FIG. 2 shows a view of an embodiment of the invention where a protectivesheet is being loaded into the crimping chamber.

FIG. 3 shows a view of an embodiment of the invention where a protectivesheet has been loaded into the crimping chamber.

FIG. 4 shows a view of an embodiment of the invention where a protectivesheet has been loaded into the crimping chamber and a medical device hasbeen placed within the crimping chamber.

FIG. 5 shows a view of an embodiment of the invention during a crimpingstep.

FIG. 6 shows a view of an embodiment of the invention after a crimpingstep, wherein a portion of the protective sheet is being removed fromthe crimping chamber.

FIG. 7 shows another embodiment of the invention.

FIG. 8 shows an embodiment of the invention.

FIG. 9 shows another embodiment of the invention.

FIG. 10 shows another embodiment of the invention.

FIG. 11 shows a portion of an embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

While this invention may be embodied in many different forms, there aredescribed in detail herein specific preferred embodiments of theinvention. This description is an exemplification of the principles ofthe invention and is not intended to limit the invention to theparticular embodiments illustrated.

For the purposes of this disclosure, like reference numerals in thefigures shall refer to like features unless otherwise indicated.

FIG. 1 shows an embodiment of a crimping apparatus 10 for reducing thesize of a medical device. The apparatus 10 may include a crimpingsection 20 and a protective sheet loader section 40.

The crimping section 20 may comprise a plurality of segments or blades22 arranged to form a chamber 30 of adjustable size. Each blade 22 mayinclude a contacting surface 24 which may contact and apply inwardforces to an article within the chamber 30. Desirably, the crimpingsection 20 may be suitable for reducing the size of a medical device.The crimping section 20 may function according to the principlesdisclosed in U.S. Pat. No. 6,629,350 and U.S. Pat. No. 6,360,577; U.S.patent application Ser. No. 10/788,088; or according to any othersuitable stent crimping device.

The sheet loader section 40 may comprise a protective sheet 42 ofmaterial disposed between a first or supply roller 44 and a second ordiscard roller 46. The sheet loader section 40 may further include aloading mechanism 50 arranged to load a portion of the protective sheet42 into the chamber 30.

Desirably, during operation of the apparatus 10 which will be describedwith respect to FIGS. 2-6, a portion of the protective sheet 42 may beoriented within the chamber 30 such that the sheet 42 abuts the innerperiphery of the chamber 30. A medical device, such as a stent, may beoriented within the chamber 30 such that the sheet 42 forms a barrierbetween the medical device and the contacting surfaces 24 of the blades22. The sheet 42 may be kept under tension as the size of the chamber 30is reduced. When the size of the medical device has been suitablyreduced, the medical device may be removed from the chamber 30, and thesheet 42 may be indexed such that the portion of the sheet within thechamber 30 is removed and a different portion of the sheet 42 may beloaded into the chamber 30.

The protective sheet 42 may comprise any compliant material suitable forforming a barrier between the blades 22 and the medical device beingreduced in size. Desirably, the material used to form the sheet 42 mayhave a low coefficient of friction, for example 0.25 or less, or moredesirably 0.1 or less. In some embodiments, the sheet 42 may comprise apolymer such as Mylar, nylon, Pebax, high density polyethylene,polytetrafluoroethylene (PTFE), etc.

The protective sheet 42 desirably functions to preventcross-contamination between the blades 22 and a medical device beingreduced in size. For example, when a medical device includes a coating,such as a lubricant or a drug, the sheet 42 prevents the coating fromcontaminating the blades 22. The sheet 42 may also function to preventany contaminants present on the blades 22 from contaminating the medicaldevice. Because the sheet 42 may prevent direct contact between theblades 22 and the medical device, in some embodiments the blades 22 maybe made of a harder or longer lasting material than the blades ofconventional stent crimpers, such as stainless steel or other metals.

In some embodiments, the protective sheet 42 may act as a cushionbetween the blades 22 and a medical device being reduced in size. Thesheet 42 may help to prevent localized areas of high stress upon themedical device by distributing forces applied by the blades 22. Further,when the sheet 42 is placed under tension during a crimping step,uniform inward forces applied to the medical device by the sheet 42 mayaid in providing a uniform reduced size to the medical device.

In some embodiments, the protective sheet 42 may help to prevent anygaps between the crimper blades 22 from catching any portions of themedical device during a crimping step or while removing the medicaldevice from the crimping chamber after a crimping step.

In some embodiments, a lubricious coating may be applied to one or bothsides of the sheet 42 to help prevent the sheet 42 from sticking to anyother part of the apparatus 10.

The crimping section 20 may be provided with a gap 26 through which thesheet 42 may be loaded into the chamber 30. A gap 26 may be any suitablesize which allows the sheet 42 to be loaded. In some embodiments, a gap26 may be as small as possible. In some embodiments, the crimpingsection 20 may include a removable blade 28 which may be temporarilymoved from its crimping position in order to form a gap 26. A removableblade 28 may be removed by any suitable movement mechanism 29, such asan electromagnet, an actuator, a spring, a motor, a pneumatic cylinderor device, etc.

FIG. 2 shows a removable blade 28 in a temporarily removed position inorder to form a gap 26. In some embodiments, the loading mechanism 50may be actuated along a track 52 in a direction toward the chamber 30and may push a portion of the sheet 42 toward the chamber 30. Desirably,as the sheet 42 moves closer to the chamber 30, the supply roller 44 mayrotate and provide an appropriate supply of the sheet 42. Desirably, thediscard roller 46 may remain fixed against rotation.

Referring to FIG. 3, as the sheet 42 approaches the gap 26, the loadingmechanism 50 may load a portion of the sheet 42 into the chamber 30. Insome embodiments, the loading mechanism 50 may include a source forproviding a stream of gas, such as an air jet or another suitable fluiddirecting mechanism, which may direct a stream of air, gas or anothersuitable fluid into the chamber 30. For example, the loading mechanism50 may direct a pressurized air or gas stream against the sheet 42. Theair stream may force a portion of the sheet 42 through the gap 26 andinto the chamber 30. Desirably, the loading mechanism 50 may forceenough of the sheet 42 into the chamber 30 that the sheet 42 may formand define an internal cavity 56 within the chamber 30. In someembodiments, the air stream may force the sheet 42 to abut the innerperiphery of the chamber 30, and thus the volume of the cavity 56defined by the sheet 42 may be substantially similar to the volume ofthe chamber 30. It may be desirable to control the amount of the sheet42 entering the chamber 30 and/or the tension of the sheet 42 duringloading by controlling the rotation of the supply roller 44 and/or thediscard roller 46.

In addition to air, other suitable fluids which may be used by theloading system 50 include but are not limited to inert and relativelyinert gases. Inert and relatively inert gases include but are notlimited to nitrogen, helium, argon and combinations thereof.

At least a portion of a loading mechanism 50 may have a thin profile,which may allow at least a portion of the loading mechanism 50 to travelbetween crimper blades 22. Desirably, a portion of the loading mechanism50 may approach the gap 26 and move as close to the gap 26 as possible.

FIG. 4 shows a medical device 60, such as a stent, loaded within thecavity 56. Desirably, the medical device 60 is loaded into the cavity 56such that the portion of the sheet 42 within the chamber 30 forms abarrier between the medical device 60 and the contacting surfaces 24 ofthe crimper blades 22. In some embodiments, the medical device 60 may beloaded into the cavity 56 while the loading mechanism 50 continues toprovide an air stream which may hold the cavity 56 open.

In some embodiments, a medical device 60 may comprise a self-expandingstent. In some embodiments, a delivery catheter may be oriented within aself-expanding stent within the chamber 30. In some embodiments, amedical device 60 may comprise a balloon expandable stent, and a ballooncatheter may be provided having an inflation balloon oriented within theballoon expandable stent within the chamber 30.

In some embodiments a medical device 60 may comprise one or moretherapeutic agents. In some embodiments the agent may be placed on themedical device 60 in the form of a coating. In at least one embodimentthe coating may include at least one therapeutic agent and at least onepolymer agent.

A therapeutic agent may be a drug or other pharmaceutical product suchas non-genetic agents, genetic agents, cellular material, etc. Someexamples of suitable non-genetic therapeutic agents include but are notlimited to: anti-thrombogenic agents such as heparin, heparinderivatives, vascular cell growth promoters, growth factor inhibitors,Paclitaxel, etc. Where an agent includes a genetic therapeutic agent,such a genetic agent may include but is not limited to: DNA, RNA andtheir respective derivatives and/or components; hedgehog proteins, etc.Where a therapeutic agent includes cellular material, the cellularmaterial may include but is not limited to: cells of human origin and/ornon-human origin as well as their respective components and/orderivatives thereof. Where the therapeutic agent includes a polymeragent, the polymer agent may be apolystyrene-polyisobutylene-polystyrene triblock copolymer (SIBS)polyethylene oxide, silicone rubber and/or any other suitable substrate.

The loading mechanism 50 may be retracted and returned to its originalposition. In some embodiments the loading 50 mechanism may actuate awayfrom the crimping section 20 along its track 52. The removable blade 28may also be moved from the temporarily removed position to a crimpingposition as shown in FIG. 4.

Prior to a crimping step, the sheet 42 may be placed in tension, therebyremoving any excess portions of the sheet 42 from the chamber 30 andcausing the sheet 42 to continuously abut the outer periphery of themedical device 60. The sheet 42 may be placed in tension by the rotationof one or both of the rollers 44, 46 in the appropriate direction(s). Insome embodiments, the supply roller 44 may remain fixed against rotationwhile the discard roller 46 rotates in a sheet removal direction. Insome embodiments, the discard roller 46 may remain fixed againstrotation while the supply roller 44 rotates in a sheet removaldirection. In some embodiments, both the supply roller 44 and thediscard roller 46 may rotate in the appropriate respective directions toplace the sheet 42 under tension.

As shown in FIG. 5, the crimping section 20 may perform a crimping stepwherein the size of the chamber 30 is reduced, thereby reducing the sizeof the medical device 60 within the chamber. The sheet 42 may functionto prevent cross-contamination between the blades 22 and the medicaldevice 60 being reduced in size. The sheet 42 may further help toprevent damage to any coatings present on the medical device 60.Desirably, during the crimping step, the sheet 42 may be kept undertension. Desirably, as the size of the medical device 60 is reduced, anyexcess portion of the sheet 42 may be removed from the chamber 30 due torotation of one or both of the rollers 44, 46. Thus, as the size of themedical device 60 is reduced, a portion of the sheet 42 will continue towrap continuously about the outer periphery of the medical device 60without wrinkling or bunching. After the crimping step, the medicaldevice 60 may be removed from the chamber 30.

FIG. 6 shows the apparatus 10 after the medical device 60 has beenremoved from the chamber 30. The size of the chamber 30 may be increasedand the portion of the sheet 42 within the chamber 30 may be removed.Desirably, the discard roller 46 may rotate to remove all contaminatedportions of the sheet 42. Once the contaminated portion of the sheet 42has been removed, another portion of the sheet 42 may be loaded into thechamber 30 and another crimping operation may be conducted.

In some embodiments, at least one blade 22 of a crimping apparatus 10may include multiple portions, wherein a portion of the blade isseparately moveable with respect to another portion of the blade.

FIG. 7 shows an embodiment of a crimping apparatus 10 wherein thecrimping section 20 includes a blade 22 having a body section 66 and atip 68. The body section 66 may be attached to the crimping sectionactuation mechanism which controls movement of all of the blades 22 forcrimping of a medical device. The tip 68 may be moveable separately fromother portions of the apparatus 10 and may move between a crimpingposition and a temporarily removed position. FIG. 7 depicts the tip in atemporarily removed position, wherein a gap 26 is desirably present. Theloading mechanism 50 may load a portion of the sheet 42 through the gap26 and into the chamber 30.

FIG. 8 shows the tip 68 in a crimping position, having been actuatedfrom the temporarily removed position. When the tip 68 is in a crimpingposition, the gap 26 may be substantially closed. Actuation of the tip68 with respect to the body section 66 may be accomplished by anysuitable method, such as an electromagnet, an actuator, a spring, etc.FIG. 8 also shows a portion of the sheet 42 loaded into the chamber 30and forming a cavity 56.

FIG. 9 shows another embodiment of a crimping apparatus 10, wherein aremovable blade 28 may have a larger contacting surface 24 or a greateramount of surface area exposed in the chamber 30 than other blades 22 ofthe device. During a crimping process, the removable blade 28 may followa unique crimping movement path. As the blades 22, 28 are moved toreduce the size of the chamber 30, the non-removable blades 22 may allfollow similarly shaped crimping movement paths. A removable blade 28may follow a unique crimping movement path, which may be non-symmetricalwhen compared to the crimping movement path of another blade 22.

A removable blade 28 which follows a non-symmetrical crimping movementpath may further be moved by a movement mechanism 29 to a temporarilyremoved position while a protective sheet 42 is loaded into the chamber30. The non-symmetrical crimping movement path may allow the apparatus10 to have a larger gap 26 while the removable blade is in thetemporarily removed position, and to minimize the spacing between theremovable blade 28 and adjacent blades 22 during the crimping step.

In some embodiments, a crimping section 20 may be provided with a gap 26built into the design of the crimper. For example, blades 22 may bearranged such that a gap 26 or spacing exists between two adjacentblades sufficient for a loading mechanism 50 to load a portion of asheet 42 into the crimping chamber 30. In such embodiments, it may bedesirable to include a non-symmetrical blade. During a crimping process,a non-symmetrical blade may follow a unique crimping movement path,which may be non-symmetrical when compared to the crimping movement pathof another blade 22 or all of the other blades 22 of the device. Anon-symmetrical blade may allow the apparatus 10 to have a larger gap 26when the chamber 30 is fully opened, and may minimize the spacingbetween a non-symmetrical blade and adjacent blades 22 as the size ofthe chamber 30 is reduced. In some embodiments, a non-symmetrical blademay have a larger contacting surface 24 or a greater amount of surfacearea exposed in the chamber 30 than other blades 22 of the device. Insome embodiments, a non-symmetrical blade may have a different shapethan other blades 22 of the apparatus 10.

FIG. 10 shows another embodiment of a loading mechanism 50, which mayinclude a cross-member 72 which desirably runs parallel to alongitudinal axis of the crimping chamber 30. In some embodiments, across-member 72 may be wire and may be supported at both ends. In someembodiments, a cross-member 72 may be an extension of a lever arm 74 orlever arms of the loading mechanism 50. The cross-member 72 may includea roller 76 to aid in placement of the sheet 42. The cross-member 72 maybe moved along a travel path 58 which travels through the gap 26 andinto the chamber 30. In some embodiments, the travel path 58 may travelabout the periphery of the chamber 30. The cross-member 72 may be movedalong the travel path 58 by a control device 78, which may include alever arm 74 which may be extendable.

In some embodiments, an apparatus 10 may include a plurality ofremovable blades 28, which may allow for a larger gap 26. In someembodiments, when the removable blades 28 are in a temporarily removedposition, a gap 26 may be large enough to load an uncrimped stent intothe chamber 30 laterally through the gap 26. In such embodiments, aloading mechanism 50 may load both a stent and the protective sheet 42into the chamber 30 simultaneously. For example, a loading mechanism 50may contact and move a stent laterally toward the gap 26. The stent maycontact the sheet 42 and may push a portion of the sheet 42 through thegap 26 and into the chamber 30 as the stent is moved through the gap 26and into the chamber 30.

FIG. 11 shows an embodiment of a tension device 80 to control thetension of the sheet 42. When it is desired to use a system other thanthe supply roller 44 and/or the discard roller 46 to control the tensionof the sheet 42, one or more separate tension devices 80 may beprovided. Desirably, tension devices 80 may be arranged to engage thesheet 42 between the supply roller 44 and the chamber 30, and/or betweenthe chamber 30 and the discard roller 46. Tension devices 80 maycomprise any mechanism suitable for engaging the sheet 42 and applying adirectional force to the sheet 42. In one embodiment, a tension device80 may comprise a motor 86 arranged to drive a driven roller 82. Apassive roller 84 may be arranged to engage the sheet 42 in conjunctionwith the driven roller 82. In some embodiments, the driven roller 82and/or passive roller 84 may be moved away from one another to releasethe sheet 42 when desired. Tension devices 80 may apply forces to thesheet 42 which act to remove the sheet 42 from the chamber 30.

In some embodiments, the crimping apparatus 10 may be used to crimptapered medical devices, which may be tapered along their entire lengthor a portion or portions thereof. The crimping section 20 may beconfigured to have a tapered or shaped crimping chamber according to theprinciples disclosed in U.S. patent application Ser. No. 10/788,088 orany other suitable device for crimping a tapered article.

A tapered medical device generally includes a first region having afirst diameter and a second region having a second diameter of differentsize. A taper may extend along the entire length or along less than theentire length of the medical device. A taper may begin or end at an endof the medical device or elsewhere along the length of the medicaldevice. This size disparity may exist in the crimped and/or uncrimpedconfigurations. When crimping a tapered medical device using variousembodiments of the crimping apparatus 10, it may be desirable to removea greater portion of length of the sheet 42 on a first side 62 of thesheet than of a second side 64 of the sheet during crimping. Tensiondevices 80 may be configured to pull a greater length of the first side62 of the sheet than the second side 64 during a crimping operation.While applying tension to the sheet 42 during a crimping operation,tension devices 80 may remove any excess portion of the sheet 42 that isno longer needed to surround the medical device. Thus, tension devices80 may remove appropriate portions of the sheet 42 during a crimpingoperation when crimping a tapered medical device.

In various embodiments, the invention may be used as a stand alonesystem for crimping/loading a stent upon a delivery catheter, or may beused in conjunction with other steps and/or devices in a multiple stepcrimping/loading system.

In some embodiments, the invention may comprise the protective sheetloader section 40 (see FIG. 1) as herein described. An inventiveprotective sheet loader section 40 may be used with any suitablecrimping device which may receive a portion of the sheet 42 within thecrimping chamber.

The invention is also drawn to methods of reducing the size of a medicaldevice using a protective sheet 42 as herein described. For example, amethod of reducing the size of a medical device may comprise providingan apparatus for reducing the size of a medical device, such as acrimper. Desirably, the apparatus includes a crimping chamber, whereinthe size of the chamber is adjustable. A sheet of material may beprovided and a portion of the sheet of material may be disposed withinthe chamber. A medical device may be provided, and the medical devicemay be disposed within the chamber such that the first portion of thesheet of material within the chamber is oriented about the medicaldevices. The size of the chamber may be reduced to reduce the size ofthe medical device. Desirably, the sheet of material may be kept intension, and any excess portion of the sheet may be removed from thechamber as the size of the chamber is reduced.

In some embodiments, a medical device which may be reduced in size maybe a stent, whether self-expanding, balloon expandable or a combinationof the two, a graft, a stent-graft or another expandable frameworkregardless of whether it is capable of supporting a vessel.

In some embodiments, the invention may be directed to the followingnumbered paragraphs:

1. A protective sheet loader for use with a stent crimper comprising:

a supply roller;

a discard roller;

a sheet of material spanning between the supply roller and the discardroller; and

a loading mechanism constructed and arranged to load a portion of thesheet of material into the crimping chamber of a stent crimper.

2. The protective sheet loader of paragraph 1, wherein the sheet ofmaterial comprises PTFE.

3. The protective sheet loader of paragraph 1, wherein the loadingmechanism comprises a source for providing a stream of gas.

4. The protective sheet loader of paragraph 3, wherein the gas is air.

5. The protective sheet loader of paragraph 3, wherein the gas isnitrogen.

6. A method for loading a crimping device having a chamber comprisingthe steps of:

1) providing a source of material;

2) directing a flow of gas at the material to force at least a portionof the material into the chamber.

7. The method of paragraph 6, wherein the material comprises a sheet.

8. The method of paragraph 6, wherein the material comprises PTFE.

9. A method of crimping a stent comprising:

providing a stent crimper;

providing a sheet of protective material;

disposing a stent and at least a portion of the sheet of protectivematerial within the stent crimper such that the portion of the sheet ofprotective material forms a barrier between the stent and the stentcrimper;

crimping the stent using the stent crimper such that the stent crimperdoes not directly contact the stent.

10. The method of paragraph 9, wherein the stent crimper directlycontacts the sheet of protective material, and the sheet of protectivematerial directly contacts the stent during the crimping step.

11. The method of paragraph 9, further comprising removing the stent andthe portion of the sheet within the stent crimper from the stentcrimper.

12. The method of paragraph 11, further comprising disposing a secondstent and a second portion of the sheet of protective material withinthe stent crimper such that the second portion of the sheet ofprotective material forms a barrier between the second stent and thestent crimper; and performing a second crimping step comprising crimpingthe second stent using the stent crimper such that the stent crimperdoes not directly contact the second stent.

13. The method of paragraph 12, wherein the stent crimper directlycontacts the second portion of the sheet of protective material, and thesecond portion of the sheet of protective material directly contacts thesecond stent during the second crimping step.

14. The method of paragraph 9, wherein the stent comprises a coating.

15. The method of paragraph 14, wherein the coating comprises a drug.

The above disclosure is intended to be illustrative and not exhaustive.This description will suggest many variations and alternatives to one ofordinary skill in this field of art. All these alternatives andvariations are intended to be included within the scope of the claimswhere the term “comprising” means “including, but not limited to”. Thosefamiliar with the art may recognize other equivalents to the specificembodiments described herein which equivalents are also intended to beencompassed by the claims.

Further, the particular features presented in the dependent claims canbe combined with each other in other manners within the scope of theinvention such that the invention should be recognized as alsospecifically directed to other embodiments having any other possiblecombination of the features of the dependent claims. For instance, forpurposes of claim publication, any dependent claim which follows shouldbe taken as alternatively written in a multiple dependent form from allprior claims which possess all antecedents referenced in such dependentclaim if such multiple dependent format is an accepted format within thejurisdiction (e.g. each claim depending directly from claim 1 should bealternatively taken as depending from all previous claims). Injurisdictions where multiple dependent claim formats are restricted, thefollowing dependent claims should each be also taken as alternativelywritten in each singly dependent claim format which creates a dependencyfrom a prior antecedent-possessing claim other than the specific claimlisted in such dependent claim below.

This completes the description of the preferred and alternateembodiments of the invention. Those skilled in the art may recognizeother equivalents to the specific embodiment described herein whichequivalents are intended to be encompassed by the claims attachedhereto.

1. An apparatus for reducing the size of a medical device comprising: adevice having a chamber, the size of the chamber being adjustable; asheet of protective material, the sheet spanning between a first rollerand a second roller; a loading mechanism arranged to load a portion ofthe sheet of protective material into the chamber.
 2. The apparatus ofclaim 1, wherein the device having a chamber comprises a plurality ofmoveable blades arranged to form the chamber.
 3. The apparatus of claim1, wherein the loading mechanism comprises a source for providing astream of gas.
 4. The apparatus of claim 3, wherein the source forproviding a stream of gas comprises a gas jet.
 5. The apparatus of claim4, wherein the gas jet directs gas pressure against a portion of thesheet of protective material which is oriented within the chamber. 6.The apparatus of claim 5, wherein the gas pressure causes the portion ofthe sheet of protective material which is oriented within the chamber toabut an internal periphery of the chamber.
 7. The apparatus of claim 1,wherein the loading mechanism is arranged to move on a track.
 8. Theapparatus of claim 1, wherein the sheet of protective material comprisesPTFE.
 9. The apparatus of claim 1, wherein the sheet of protectivematerial has a coefficient of friction of 0.1 or less.
 10. The apparatusof claim 1, wherein the first roller and the second roller areconfigured to apply tension to the sheet of protective material.
 11. Theapparatus of claim 1, further comprising a removable blade which may betemporarily removed as the sheet of protective material is loaded intothe chamber.
 12. A method of reducing the size of an article comprising:providing a device for reducing the size of an article, the devicehaving a chamber, the size of the chamber being adjustable; providing asheet of material; providing an article; disposing a first portion ofthe sheet of material within the chamber; disposing the article withinthe chamber such that the first portion of the sheet of material withinthe chamber is oriented about the article; and reducing the size of thechamber sufficiently to reduce the size of the article.
 13. The methodof claim 12, further comprising applying tension to the first portion ofthe sheet of material within the chamber while reducing the size of thechamber.
 14. The method of claim 12, wherein disposing at least a firstportion of the sheet of material within the chamber includes forcing thefirst portion of the sheet of material into the chamber usingpressurized gas.
 15. The method of claim 14, wherein the pressurized gascauses the first portion of the sheet of material to abut an innerperiphery of the chamber.
 16. The method of claim 12, wherein the sheetof material comprises PTFE.
 17. The method of claim 12, furthercomprising removing the article and removing the first portion of thesheet of material within the chamber.
 18. The method of claim 17,further comprising disposing a second portion of the sheet of materialwithin the chamber as the first portion is removed.
 19. The method ofclaim 18, further comprising: providing a second article; disposing thesecond article within the chamber such that the second portion of thesheet of material within the chamber is oriented about the secondarticle; and reducing the size of the chamber sufficiently to reduce thesize of the second article.
 20. The method of claim 12, wherein the stepof providing a sheet of material further comprises providing a firstroller and a second roller, the sheet of material spanning between thefirst roller and the second roller.
 21. The method of claim 12, whereinthe article is a stent.